Ad-hoc vehicular networks (VANET) will become, with a high probability, the big bet of the Information and Communication Technologies into the automotive industry, as soon as models of behavior are made available to justify the costs of developing new hardware devices and applications that build those nets and their contents. In practice, those behavioral models can only be obtained, at a reasonable cost, by using simulation applications capable of predicting the behavior of a VANET on different scenarios. Even though such tools already exist, for mobility and network simulations, there are some important difficulties for them to be used in a comfortable way: - Use is not simple, and quite different from tool to tool. - The interaction among mobility and network simulation tools is also fairly complex. - As each person works on parameters different from the others, sometimes is difficult or even impossible to compare simulation results of a single model elaborated by two different set of criteria. To face such situation, this project proposes the analysis, design and construction of a system that: - Integrates different simulation tools available. - Automates the interactions among mobility and network simulation tools. - Simplify and homogenize the definition of simulation experiments. - Allows the inclusion of new functionalities/tools. Additionally, the project will attempt to create a catalog of simulation experiments that includes the most representative scenarios of the VANET’s real environment.